tests/other/ndn-test.cpp - ndnSIM - Gitiles

 /* -*- Mode:C++; c-file-style:"gnu"; indent-tabs-mode:nil; -*- */
 /**
  * Copyright (c) 2011-2015  Regents of the University of California.
  *
  * This file is part of ndnSIM. See AUTHORS for complete list of ndnSIM authors and
  * contributors.
  *
  * ndnSIM is free software: you can redistribute it and/or modify it under the terms
  * of the GNU General Public License as published by the Free Software Foundation,
  * either version 3 of the License, or (at your option) any later version.
  *
  * ndnSIM is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY;
  * without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR
  * PURPOSE.  See the GNU General Public License for more details.
  *
  * You should have received a copy of the GNU General Public License along with
  * ndnSIM, e.g., in COPYING.md file.  If not, see <http://www.gnu.org/licenses/>.
  **/

 // ndn-test.cpp

 #include "ns3/core-module.h"
 #include "ns3/network-module.h"
 #include "ns3/point-to-point-module.h"
 #include "ns3/ndnSIM-module.h"

 #include <sys/time.h>
 #include "ns3/ndnSIM/utils/mem-usage.hpp"
 #include "ns3/ndnSIM/model/cs/ndn-content-store.hpp"
 #include "ns3/ndnSIM/utils/mem-usage.hpp"

 namespace ns3 {

 /**
  * This scenario simulates a very simple network topology:
  *
  *
  *      +----------+     10000Mbps   +----------+
  *      | consumer |  <------------> | producer |
  *      +----------+       10ms      +----------+
  *
  *
  *     NS_LOG=ndn.Consumer ./waf --run ndn-test
  */

 class Tester {
 public:
   Tester()
     : m_csSize(100)
     , m_interestRate(1000)
     , m_shouldEvaluatePit(false)
     , m_simulationTime(Seconds(2000) / m_interestRate)
   {
   }

   int
   run(int argc, char* argv[]);

   void
   printHeader(std::ostream& os);

   void
   printStats(std::ostream& os, Time nextPrintTime, double beginRealTime);

 private:
   std::string m_oldContentStore;
   size_t m_csSize;
   double m_interestRate;
   bool m_shouldEvaluatePit;
   std::string m_strategy;
   double m_initialOverhead;
   Time m_simulationTime;
 };

 void
 Tester::printHeader(std::ostream& os)
 {
   m_initialOverhead = MemUsage::Get() / 1024.0 / 1024.0;
   os << "SimulationTime"
      << "\t"
      << "RealTime"
      << "\t"
      << "NumberOfInterests (total)"
      << "\t"
      << "NumberOfInterests (per real time)"
      << "\n";
 }

 void
 Tester::printStats(std::ostream& os, Time nextPrintTime, double beginRealTime)
 {
   ::timeval t;
   gettimeofday(&t, NULL);
   double realTime = t.tv_sec + (0.000001 * (unsigned)t.tv_usec) - beginRealTime;
   Time simTime = Simulator::Now();

   os << simTime << "\t";
   os << realTime << "\t";

   double interestCount = m_interestRate * simTime.ToDouble(Time::S);
   double nInterestsPerSec = interestCount / realTime;

   os << interestCount << "\t" << nInterestsPerSec << "\t";

   uint64_t pitCount = 0;
   uint64_t csCount = 0;
   for (NodeList::Iterator node = NodeList::Begin(); node != NodeList::End(); node++) {

     auto pitSize = (*node)->GetObject<ndn::L3Protocol>()->getForwarder()->getPit().size();
     if (pitSize != 0)
       pitCount += pitSize;

     if (true != true) {
       Ptr<ndn::ContentStore> cs = (*node)->GetObject<ndn::ContentStore>();
       if (cs != 0)
         csCount += cs->GetSize();
     }
     else {
       auto csSize = (*node)->GetObject<ndn::L3Protocol>()->getForwarder()->getCs().size();
       if (csSize != 0)
         csCount += csSize;
     }
   }

   os << "pit:" << pitCount << "\t";
   os << "cs:" << csCount << "\t";

   os << MemUsage::Get() / 1024.0 / 1024.0 << "MiB\n";

   if ((simTime + nextPrintTime) >= m_simulationTime) {
     double finalOverhead = MemUsage::Get() / 1024.0 / 1024.0;
     if (m_shouldEvaluatePit) {
       if (pitCount != 0) {
         os << "Approximate memory overhead per PIT entry:"
            <<  1000 * (finalOverhead - m_initialOverhead) / pitCount << "KiB\n";
       }
       else {
         os << "`The number of PIT entries is equal to zero\n";
       }
     }
     else {
       if (csCount != 0) {
         os << "Approximate memory overhead per CS entry:"
            <<  1000 * (finalOverhead - m_initialOverhead) / csCount << "KiB\n";
       }
       else {
         os << "The number of CS entries is equal to zero\n";
       }
     }
   }

   Simulator::Schedule(nextPrintTime, &Tester::printStats, this, ref(os), nextPrintTime,
                       beginRealTime);
 }

 int
 Tester::run(int argc, char* argv[])
 {
   // setting default parameters for PointToPoint links and channels
   Config::SetDefault("ns3::PointToPointNetDevice::DataRate", StringValue("10000Mbps"));
   Config::SetDefault("ns3::PointToPointChannel::Delay", StringValue("10ms"));
   Config::SetDefault("ns3::DropTailQueue::MaxSize", StringValue("20p"));

   // Read optional command-line parameters (e.g., enable visualizer with ./waf --run=<> --visualize
   CommandLine cmd;
   cmd.AddValue("old-cs", "Old content store to use "
                          "(e.g., ns3::ndn::cs::Lru, ns3::ndn::cs::Lfu, ...)",
                m_oldContentStore);
   cmd.AddValue("cs-size", "Maximum number of cached packets per node", m_csSize);
   cmd.AddValue("rate", "Interest rate", m_interestRate);
   cmd.AddValue("pit", "Perform PIT evaluation if this parameter is true",
                m_shouldEvaluatePit);
   cmd.AddValue("strategy", "Choose forwarding strategy "
                            "(e.g., /localhost/nfd/strategy/multicast, "
                            "/localhost/nfd/strategy/best-route, ...) ",
                m_strategy);
   cmd.AddValue("sim-time", "Simulation time", m_simulationTime);
   cmd.Parse(argc, argv);

   // Creating nodes
   NodeContainer nodes;
   nodes.Create(2);

   // Connecting nodes using two links
   PointToPointHelper p2p;
   p2p.Install(nodes.Get(0), nodes.Get(1));

   // Install NDN stack on all nodes
   ndn::StackHelper ndnHelper;
   ndnHelper.setCsSize(m_csSize);

   if (!m_oldContentStore.empty()) {
     ndnHelper.SetOldContentStore(m_oldContentStore, "MaxSize", std::to_string(m_csSize));
   }

   ndnHelper.InstallAll();

   ndn::FibHelper::AddRoute(nodes.Get(0), "/", nodes.Get(1), 10);
   if (!m_strategy.empty()) {
     ndn::StrategyChoiceHelper::InstallAll("/", m_strategy);
   }

   // Installing applications

   // Consumer
   ndn::AppHelper consumerHelper("ns3::ndn::ConsumerCbr");
   // Consumer will request /prefix/0, /prefix/1, ...
   consumerHelper.SetPrefix("/prefix");
   consumerHelper.SetAttribute("Frequency", DoubleValue(m_interestRate));
   consumerHelper.Install(nodes.Get(0)); // first node

   if (!m_shouldEvaluatePit) {
     // Producer
     ndn::AppHelper producerHelper("ns3::ndn::Producer");
     // Producer will reply to all requests starting with /prefix
     producerHelper.SetPrefix("/prefix");
     producerHelper.SetAttribute("PayloadSize", StringValue("1024"));
     producerHelper.Install(nodes.Get(1)); // last node
   }

   Simulator::Stop(m_simulationTime);

   struct ::timeval t;
   gettimeofday(&t, NULL);
   double beginRealTime = t.tv_sec + (0.000001 * (unsigned)t.tv_usec);
   Simulator::Schedule(Seconds(0), &Tester::printHeader, this, ref(std::cout));
   Simulator::Schedule(m_simulationTime / 200, &Tester::printStats, this, ref(std::cout),
                       m_simulationTime / 200, beginRealTime);

   L2RateTracer::InstallAll("drop-trace2.txt", Seconds(0.5));
   Simulator::Run();
   Simulator::Destroy();

   return 0;
 }

 } // namespace ns3

 int
 main(int argc, char* argv[])
 {
   ns3::Tester tester;
   return tester.run(argc, argv);
 }
	/* -- Mode:C++; c-file-style:"gnu"; indent-tabs-mode:nil; -- */
	/**
	* Copyright (c) 2011-2015 Regents of the University of California.
	*
	* This file is part of ndnSIM. See AUTHORS for complete list of ndnSIM authors and
	* contributors.
	*
	* ndnSIM is free software: you can redistribute it and/or modify it under the terms
	* of the GNU General Public License as published by the Free Software Foundation,
	* either version 3 of the License, or (at your option) any later version.
	*
	* ndnSIM is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY;
	* without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR
	* PURPOSE. See the GNU General Public License for more details.
	*
	* You should have received a copy of the GNU General Public License along with
	* ndnSIM, e.g., in COPYING.md file. If not, see <http://www.gnu.org/licenses/>.
	**/

	// ndn-test.cpp

	#include "ns3/core-module.h"
	#include "ns3/network-module.h"
	#include "ns3/point-to-point-module.h"
	#include "ns3/ndnSIM-module.h"

	#include <sys/time.h>
	#include "ns3/ndnSIM/utils/mem-usage.hpp"
	#include "ns3/ndnSIM/model/cs/ndn-content-store.hpp"
	#include "ns3/ndnSIM/utils/mem-usage.hpp"

	namespace ns3 {

	/**
	* This scenario simulates a very simple network topology:
	*
	*
	* +----------+ 10000Mbps +----------+
	* \| consumer \| <------------> \| producer \|
	* +----------+ 10ms +----------+
	*
	*
	* NS_LOG=ndn.Consumer ./waf --run ndn-test
	*/

	class Tester {
	public:
	Tester()
	: m_csSize(100)
	, m_interestRate(1000)
	, m_shouldEvaluatePit(false)
	, m_simulationTime(Seconds(2000) / m_interestRate)
	{
	}

	int
	run(int argc, char* argv[]);

	void
	printHeader(std::ostream& os);

	void
	printStats(std::ostream& os, Time nextPrintTime, double beginRealTime);

	private:
	std::string m_oldContentStore;
	size_t m_csSize;
	double m_interestRate;
	bool m_shouldEvaluatePit;
	std::string m_strategy;
	double m_initialOverhead;
	Time m_simulationTime;
	};

	void
	Tester::printHeader(std::ostream& os)
	{
	m_initialOverhead = MemUsage::Get() / 1024.0 / 1024.0;
	os << "SimulationTime"
	<< "\t"
	<< "RealTime"
	<< "\t"
	<< "NumberOfInterests (total)"
	<< "\t"
	<< "NumberOfInterests (per real time)"
	<< "\n";
	}

	void
	Tester::printStats(std::ostream& os, Time nextPrintTime, double beginRealTime)
	{
	::timeval t;
	gettimeofday(&t, NULL);
	double realTime = t.tv_sec + (0.000001 * (unsigned)t.tv_usec) - beginRealTime;
	Time simTime = Simulator::Now();

	os << simTime << "\t";
	os << realTime << "\t";

	double interestCount = m_interestRate * simTime.ToDouble(Time::S);
	double nInterestsPerSec = interestCount / realTime;

	os << interestCount << "\t" << nInterestsPerSec << "\t";

	uint64_t pitCount = 0;
	uint64_t csCount = 0;
	for (NodeList::Iterator node = NodeList::Begin(); node != NodeList::End(); node++) {

	auto pitSize = (*node)->GetObject<ndn::L3Protocol>()->getForwarder()->getPit().size();
	if (pitSize != 0)
	pitCount += pitSize;

	if (true != true) {
	Ptr<ndn::ContentStore> cs = (*node)->GetObject<ndn::ContentStore>();
	if (cs != 0)
	csCount += cs->GetSize();
	}
	else {
	auto csSize = (*node)->GetObject<ndn::L3Protocol>()->getForwarder()->getCs().size();
	if (csSize != 0)
	csCount += csSize;
	}
	}

	os << "pit:" << pitCount << "\t";
	os << "cs:" << csCount << "\t";

	os << MemUsage::Get() / 1024.0 / 1024.0 << "MiB\n";

	if ((simTime + nextPrintTime) >= m_simulationTime) {
	double finalOverhead = MemUsage::Get() / 1024.0 / 1024.0;
	if (m_shouldEvaluatePit) {
	if (pitCount != 0) {
	os << "Approximate memory overhead per PIT entry:"
	<< 1000 * (finalOverhead - m_initialOverhead) / pitCount << "KiB\n";
	}
	else {
	os << "`The number of PIT entries is equal to zero\n";
	}
	}
	else {
	if (csCount != 0) {
	os << "Approximate memory overhead per CS entry:"
	<< 1000 * (finalOverhead - m_initialOverhead) / csCount << "KiB\n";
	}
	else {
	os << "The number of CS entries is equal to zero\n";
	}
	}
	}

	Simulator::Schedule(nextPrintTime, &Tester::printStats, this, ref(os), nextPrintTime,
	beginRealTime);
	}

	int
	Tester::run(int argc, char* argv[])
	{
	// setting default parameters for PointToPoint links and channels
	Config::SetDefault("ns3::PointToPointNetDevice::DataRate", StringValue("10000Mbps"));
	Config::SetDefault("ns3::PointToPointChannel::Delay", StringValue("10ms"));
	Config::SetDefault("ns3::DropTailQueue::MaxSize", StringValue("20p"));

	// Read optional command-line parameters (e.g., enable visualizer with ./waf --run=<> --visualize
	CommandLine cmd;
	cmd.AddValue("old-cs", "Old content store to use "
	"(e.g., ns3::ndn::cs::Lru, ns3::ndn::cs::Lfu, ...)",
	m_oldContentStore);
	cmd.AddValue("cs-size", "Maximum number of cached packets per node", m_csSize);
	cmd.AddValue("rate", "Interest rate", m_interestRate);
	cmd.AddValue("pit", "Perform PIT evaluation if this parameter is true",
	m_shouldEvaluatePit);
	cmd.AddValue("strategy", "Choose forwarding strategy "
	"(e.g., /localhost/nfd/strategy/multicast, "
	"/localhost/nfd/strategy/best-route, ...) ",
	m_strategy);
	cmd.AddValue("sim-time", "Simulation time", m_simulationTime);
	cmd.Parse(argc, argv);

	// Creating nodes
	NodeContainer nodes;
	nodes.Create(2);

	// Connecting nodes using two links
	PointToPointHelper p2p;
	p2p.Install(nodes.Get(0), nodes.Get(1));

	// Install NDN stack on all nodes
	ndn::StackHelper ndnHelper;
	ndnHelper.setCsSize(m_csSize);

	if (!m_oldContentStore.empty()) {
	ndnHelper.SetOldContentStore(m_oldContentStore, "MaxSize", std::to_string(m_csSize));
	}

	ndnHelper.InstallAll();

	ndn::FibHelper::AddRoute(nodes.Get(0), "/", nodes.Get(1), 10);
	if (!m_strategy.empty()) {
	ndn::StrategyChoiceHelper::InstallAll("/", m_strategy);
	}

	// Installing applications

	// Consumer
	ndn::AppHelper consumerHelper("ns3::ndn::ConsumerCbr");
	// Consumer will request /prefix/0, /prefix/1, ...
	consumerHelper.SetPrefix("/prefix");
	consumerHelper.SetAttribute("Frequency", DoubleValue(m_interestRate));
	consumerHelper.Install(nodes.Get(0)); // first node

	if (!m_shouldEvaluatePit) {
	// Producer
	ndn::AppHelper producerHelper("ns3::ndn::Producer");
	// Producer will reply to all requests starting with /prefix
	producerHelper.SetPrefix("/prefix");
	producerHelper.SetAttribute("PayloadSize", StringValue("1024"));
	producerHelper.Install(nodes.Get(1)); // last node
	}

	Simulator::Stop(m_simulationTime);

	struct ::timeval t;
	gettimeofday(&t, NULL);
	double beginRealTime = t.tv_sec + (0.000001 * (unsigned)t.tv_usec);
	Simulator::Schedule(Seconds(0), &Tester::printHeader, this, ref(std::cout));
	Simulator::Schedule(m_simulationTime / 200, &Tester::printStats, this, ref(std::cout),
	m_simulationTime / 200, beginRealTime);

	L2RateTracer::InstallAll("drop-trace2.txt", Seconds(0.5));
	Simulator::Run();
	Simulator::Destroy();

	return 0;
	}

	} // namespace ns3

	int
	main(int argc, char* argv[])
	{
	ns3::Tester tester;
	return tester.run(argc, argv);
	}